The factorization method of Schrödinger shows us how to determine the energy eigenstates without needing to determine the wavefunctions in position or momentum space. A strategy to convert the energy eigenstates to wavefunctions is well known for the one-dimensional simple harmonic oscillator by employing the Rodrigues formula for the Hermite polynomials in position or momentum space. In this work, we illustrate how to generalize this approach in a representation-independent fashion to find the wavefunctions of other problems in quantum mechanics that can be solved by the factorization method. We examine three problems in detail: (i) the one-dimensional simple harmonic oscillator; (ii) the three-dimensional isotropic harmonic oscillator; and (iii) the three-dimensional Coulomb problem. This approach can be used in either undergraduate or graduate classes in quantum mechanics.

Topics
Harmonic oscillator, Recurrence relations, Quantum mechanical operators, Schrodinger wave function, Schrodinger energy eigenvalue
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© 2024 Author(s). Published under an exclusive license by American Association of Physics Teachers.
2024
Author(s)

Supplementary Material

Supplementary materials- zip file
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